探测孤石高阻体的跨孔电阻率CT水槽物理模拟实验研究
The Physical Experiment Research in Laboratory of Cross-hole Electric Resistivity Tomography for Detecting Boulders
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摘要: 采用重庆奔腾数控技术研究所的WDJD-3型多功能数字直流激电仪,在电法实验室水槽内布设了探测孤石高阻体的跨孔电阻率CT法观测系统,进行了物理模型实验。物理模拟实验采用多种观测装置(二极、三极和四极装置),对采集到的数据进行反演成像,得到如下结论:①二极装置电阻率CT反演成像结果不能反映出高阻体的位置与大小;②三极装置CT反演成像结果能较好反映孤石高阻体的位置与大小;③四极装置电阻率CT反演成像也能反映出孤石高阻体的位置与规模,效果与三极装置基本相同。物理模拟实验结果表明:三极或四极装置的跨孔电阻率CT法可用于探测高阻体,它具有采集方式灵活、数据稳定可靠、成像结果直观清晰的优点。基于物理模拟实验的结果,采用电阻率CT法对地铁盾构隧道洞身范围内的孤石高阻体探测具有一定的指导意义。对孤石体的三维电阻率CT法物理模拟实验正在进一步研究中。Abstract: Using the WDJD-3 multi-functional digital DC instrument produced by Chongqing Bunting Digital Control Technical Institute, we design the observing system of cross-hole resistivity tomography to detect boulders in the laboratory, and take series of physical simulation experiments. Many arrays(cross-hole pole-pole, pole-bipole and bipole-bipole) are used in physical simulation experiments. The collected data is inversed by RES2DINV software and we get the following conclusions:(1) imaging results of pole-pole can't reflect the position and size of high resistance body; (2) both imaging results of pole-dipole and dipole-dipole in standalone mode can clearly reflect the position and size of the high resistance body. The results of physical simulation experiments indicate that cross-hole resistivity tomography can be used to detect high-impedance body. The survey method is flexible acquisition, obtaining stable and reliable data, setting clear visual image maps. The result of physical simulation experiment has a positive significance in detecting boulders in the hole of subway tunnel with cross-hole resistivity tomography. Three-dimensional resistivity tomography experiment in detecting boulder is in further studying.